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Huntington's disease modeling and stem cell therapy in spinal cord disorders and injury
Hruška-Plocháň, Marián ; Motlík, Jan (advisor) ; Bjarkam, Carsten (referee) ; Roth, Jan (referee)
Neurological disorders affect more than 14% of the population worldwide and together with traumatic brain and spinal cord injuries represent major health, public and economic burden of the society. Incidence of inherited and idiopathic neurodegenerative disorders and acute CNS injuries is growing globally while neuroscience society is being challenged by numerous unanswered questions. Therefore, research of the CNS disorders is essential. Since animal models of the CNS diseases and injuries represent the key step in the conversion of the basic research to the clinics, we focused our work on generation of new animal models and on their use in pre-clinical research. We generated and characterized transgenic minipig model of Huntington's disease (HD) which represents the only successful establishment of a transgenic model of HD in minipig which should be valuable for testing of long term safety of HD therapeutics. Next, we crossed the well characterized R6/2 mouse HD model with the gad mouse model which lacks the expression of UCHL1 which led to results that support the theory of "protective" role of mutant huntingtin aggregates and suggest that UCHL1 function(s) may be affected in HD disturbing certain branches of Ubiquitin Proteasome System. Traumatic spinal cord injury and Amyotrophic Lateral...
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Monitoring of the development of the Huntington's disease in transgenic minipigs with N-terminal part of human mutated huntingtin: biochemical and motoric changes of F0, F1 and F2 generation
Kučerová, Šárka ; Ellederová, Zdeňka (advisor) ; Klempíř, Jiří (referee)
Huntington's disease (HD) belongs to neurodegenerative disorders. It is a monogenic disease caused by trinucleotic CAG expansion in exon 1 of gene coding protein huntingtin. Even though the cause of HD is known since 1993, the pathophysiology and cure for HD reminds to be found. The animal models are being used for better understanding of HD. The most common animal models for HD are rodents, especially mice but it was also important to create large animal models, which will be more like human. Therefore, TgHD minipig was created in Academic of Science in Liběchov in 2009. This model was created by microinjection of lentiviral vector carrying N-terminal part of human HTT with 124 repetitive CAG in exon 1. This model is viable and in every generation, is part of the offspring transgenic. In this thesis, I specialized to biochemical and behavioral changes of this model. I compared transgenic and wild type siblings. I found that biochemical changes are manifested mostly by increased level of mtHtt fragments in testes and brain. In behavioral part of this thesis I established new methods for testing behavioral changes in this model. The introduced methods showed some changes between wild type and transgenic animals at the tested ages but these changes were not significant due to the low number of...
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Modelovanie ochorenia a štúdium regeneračných procesov v Huntingtonovej chorobe a ALS in vivo
Hruška-Plocháň, Marián
Neurological disorders affect more than 14% of the population worldwide and together with traumatic brain and spinal cord injuries represent major health, public and economic burden of the society. Incidence of inherited and idiopathic neurodegenerative disorders and acute CNS injuries is growing globally while neuroscience society is being challenged by numerous unanswered questions. Therefore, research of the CNS disorders is essential. Since animal models of the CNS diseases and injuries represent the key step in the conversion of the basic research to the clinics, we focused our work on generation of new animal models and on their use in pre-clinical research. We generated and characterized transgenic minipig model of Huntington's disease (HD) which represents the only successful establishment of a transgenic model of HD in minipig which should be valuable for testing of long term safety of HD therapeutics. Next, we crossed the well characterized R6/2 mouse HD model with the gad mouse model which lacks the expression of UCHL1 which led to results that support the theory of "protective" role of mutant huntingtin aggregates and suggest that UCHL1 function(s) may be affected in HD disturbing certain branches of Ubiquitin Proteasome System. Traumatic spinal cord injury and Amyotrophic Lateral...
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Monitoring of the development of the Huntington's disease in transgenic minipigs with N-terminal part of human mutated huntingtin: biochemical and motoric changes of F0, F1 and F2 generation
Kučerová, Šárka ; Ellederová, Zdeňka (advisor) ; Klempíř, Jiří (referee)
Huntington's disease (HD) belongs to neurodegenerative disorders. It is a monogenic disease caused by trinucleotic CAG expansion in exon 1 of gene coding protein huntingtin. Even though the cause of HD is known since 1993, the pathophysiology and cure for HD reminds to be found. The animal models are being used for better understanding of HD. The most common animal models for HD are rodents, especially mice but it was also important to create large animal models, which will be more like human. Therefore, TgHD minipig was created in Academic of Science in Liběchov in 2009. This model was created by microinjection of lentiviral vector carrying N-terminal part of human HTT with 124 repetitive CAG in exon 1. This model is viable and in every generation, is part of the offspring transgenic. In this thesis, I specialized to biochemical and behavioral changes of this model. I compared transgenic and wild type siblings. I found that biochemical changes are manifested mostly by increased level of mtHtt fragments in testes and brain. In behavioral part of this thesis I established new methods for testing behavioral changes in this model. The introduced methods showed some changes between wild type and transgenic animals at the tested ages but these changes were not significant due to the low number of...
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The significance of porcine replication defect endogenous retroviruses in xenotransplantation
Daniel, Petr ; Hejnar, Jiří (advisor) ; Horníková, Lenka (referee)
The shortage of human tissues and organs for allotransplantation can be overcome by xenotransplantation. As a source of organs, the miniature pig is convenient. However, the presence of pathogens transmissible to the recipients, especially porcine endogenous retrovirus (PERV), represents a threat for successfull xenotransplantation. Infectious PERVs contain three classes of envelope glycoprotein. Two classes, PERV-A and PERV-B are polytropic, they can infect human, pig and mink cells in vitro. PERV-C is evolutionary young, ecotropic isolate that can infect pig only. We previously detected a new full-lenght, but replication-defective PERV-A isolate dubbed (MAMBA) with high transcriptional activity in Large-White pig from a Czech breed. To support our results with PERV-MAMBA epigenetic regulation in pig tissues, in vitro DNA methylation essay was accomplished. Methylated or non-methylated reporter plasmids containing provirus 5' LTR were transfected into 293T cells and luciferase activity was measured. In both cases, methylated LTR decreased significantly expression of luciferase. Thus, PERV LTR-driven transcription is sensitive to DNA methylation. We also used PERV-A MAMBA provirus to study recombination between two pig endogenous retroviruses. We prepared 293T and BeWo cell clones harboring PERV-A...
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Modelovanie ochorenia a štúdium regeneračných procesov v Huntingtonovej chorobe a ALS in vivo
Hruška-Plocháň, Marián
Neurological disorders affect more than 14% of the population worldwide and together with traumatic brain and spinal cord injuries represent major health, public and economic burden of the society. Incidence of inherited and idiopathic neurodegenerative disorders and acute CNS injuries is growing globally while neuroscience society is being challenged by numerous unanswered questions. Therefore, research of the CNS disorders is essential. Since animal models of the CNS diseases and injuries represent the key step in the conversion of the basic research to the clinics, we focused our work on generation of new animal models and on their use in pre-clinical research. We generated and characterized transgenic minipig model of Huntington's disease (HD) which represents the only successful establishment of a transgenic model of HD in minipig which should be valuable for testing of long term safety of HD therapeutics. Next, we crossed the well characterized R6/2 mouse HD model with the gad mouse model which lacks the expression of UCHL1 which led to results that support the theory of "protective" role of mutant huntingtin aggregates and suggest that UCHL1 function(s) may be affected in HD disturbing certain branches of Ubiquitin Proteasome System. Traumatic spinal cord injury and Amyotrophic Lateral...
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Huntington's disease modeling and stem cell therapy in spinal cord disorders and injury
Hruška-Plocháň, Marián ; Motlík, Jan (advisor) ; Bjarkam, Carsten (referee) ; Roth, Jan (referee)
Neurological disorders affect more than 14% of the population worldwide and together with traumatic brain and spinal cord injuries represent major health, public and economic burden of the society. Incidence of inherited and idiopathic neurodegenerative disorders and acute CNS injuries is growing globally while neuroscience society is being challenged by numerous unanswered questions. Therefore, research of the CNS disorders is essential. Since animal models of the CNS diseases and injuries represent the key step in the conversion of the basic research to the clinics, we focused our work on generation of new animal models and on their use in pre-clinical research. We generated and characterized transgenic minipig model of Huntington's disease (HD) which represents the only successful establishment of a transgenic model of HD in minipig which should be valuable for testing of long term safety of HD therapeutics. Next, we crossed the well characterized R6/2 mouse HD model with the gad mouse model which lacks the expression of UCHL1 which led to results that support the theory of "protective" role of mutant huntingtin aggregates and suggest that UCHL1 function(s) may be affected in HD disturbing certain branches of Ubiquitin Proteasome System. Traumatic spinal cord injury and Amyotrophic Lateral...
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Cell therapy in animal models - preclinical studies
Juhásová, Jana ; Motlík, Jan (advisor) ; Grim, Miloš (referee) ; Jendelová, Pavla (referee)
The progress of cell therapy can be greatly facilitated by using suitable experimental models. It is essential to verify the clinical usefulness of new healing procedures obtained in studies on laboratory animals by using a large animal model. One of suitable models well acceptable in medical community is undoubtedly the miniature pig, which resembles humans in terms of physiology and body proportions. This PhD thesis presents the summary of our experimental studies relating to possible exploitation of mesenchymal and neural stem cells in the healing of locomotive apparatus and neural tissue disorders in humans or animals. The first part of the thesis briefly describes the current issue of cell therapy and animal models, mesenchymal cells and/or their combination with new types of scaffolds, neurogenesis, neural stem cells and their potential application in therapy of spinal cord injury. The second part is focused on the goals and methodology, the individual publications being listed in the third part. Our experiments with iatrogenic physeal defect in rabbits, which served as a model of the occurrence of valgous deformation in the clinical practice, showed the positive preventive and therapeutical effects of a new type of scaffolds seeded with allogeneic mesenchymal stem cells in animals without...
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